Abstract
Direct generation of chirp-free solitons without external compression in normal-dispersion fiber lasers is a long-term challenge in ultrafast optics. We demonstrate near-chirp-free solitons with distinct spectral sidebands in normal-dispersion hybrid-structure fiber lasers containing a few meters of polarization-maintaining fiber. The bandwidth and duration of the typical mode-locked pulse are 0.74 nm and 1.95 ps, respectively, giving the time-bandwidth product of 0.41 and confirming the near-chirp-free property. Numerical results and theoretical analyses fully reproduce and interpret the experimental observations, and show that the fiber birefringence, normal-dispersion, and nonlinear effect follow a phase-matching principle, enabling the formation of the near-chirp-free soliton. Specifically, the phase-matching effect confines the spectrum broadened by self-phase modulation and the saturable absorption effect slims the pulse stretched by normal dispersion. Such pulse is termed as birefringence-managed soliton because its two orthogonal-polarized components propagate in an unsymmetrical “X” manner inside the polarization-maintaining fiber, partially compensating the group delay difference induced by the chromatic dispersion and resulting in the self-consistent evolution. The property and formation mechanism of birefringence-managed soliton fundamentally differ from other types of pulses in mode-locked fiber lasers, which will open new research branches in laser physics, soliton mathematics, and their related applications.
Highlights
Soliton initially refers to a special type of wavepacket that is capable of propagating undistorted over long distance, which has been broadly discovered in fields of plasma physics[1,2], fluid dynamics[3,4,5], Bose-Einstein condensates[6,7,8], and optical networks[9]
Principle and simulation/experiment results of birefringencemanaged soliton (BMS) The configuration of the laser cavity is shown in Fig. 1a, which includes a section of gain fiber, a saturable absorber (SA), and a few meters of polarizationmaintaining fibers (PMFs)
0.65 m 0.85 m uf uy uy Discussions and conclusions In conclusion, we proposed a phase-matching theory to explain the formation of unique near-chirp-free BMS in normal-dispersion single-mode fiber (SMF)-PMF lasers
Summary
Soliton initially refers to a special type of wavepacket that is capable of propagating undistorted over long distance, which has been broadly discovered in fields of plasma physics[1,2], fluid dynamics[3,4,5], Bose-Einstein condensates[6,7,8], and optical networks[9]. By setting the cavity dispersion into the normal regime, fiber lasers support self-similar pulses and dissipative solitons with the assistance of saturable absorber (SA). We demonstrate near-chirp-free solitons with spectral sidebands in an all-normal-dispersion ytterbiumdoped fiber (YDF) laser comprising a section of PMF.
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